Co-processor acceleration of an unmodified parallel solid mechanics code with FEASTGPU

Dominik Goddeke; Hilmar Wobker; Robert Strzodka; Jamaludin Mohd-Yusof; Patrick McCormick; Stefan Turek

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Co-processor acceleration of an unmodified parallel solid mechanics code with FEASTGPU

机译：使用FEASTGPU对未修改的并行实体力学代码进行协处理器加速

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We have previously presented an approach to include graphics processing units as co-processors in a parallel Finite Element multigrid solver called FEAST. In this paper we show that the acceleration transfers to real applications built on top of FEAST, without any modifications of the application code. The chosen solid mechanics code is well suited to assess the practicability of our approach due to higher accuracy requirements and a more diverse CPU/co-processor interaction. We demonstrate in detail that the single precision execution of the co-processor does not affect the final accuracy, and analyse how the local acceleration gains of factors 5.5-9.0 translate into 1.6- to 2.6-fold total speed-up.

机译：之前，我们已经提出了一种方法，可以将图形处理单元作为协处理器包含在称为FEAST的并行有限元多网格求解器中。在本文中，我们证明了加速度可以转移到基于FEAST之上的真实应用程序，而无需对应用程序代码进行任何修改。所选择的实体力学代码非常适合评估我们方法的实用性，因为它具有更高的精度要求和更多样化的CPU /协处理器交互作用。我们详细证明了协处理器的单精度执行不会影响最终精度，并分析了5.5-9.0因子的局部加速度增益如何转换为总速度的1.6-2.6倍。

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来源
《International Journal of Computational Science and Engineering》 |2009年第4期|共16页
作者
Dominik Goddeke; Hilmar Wobker; Robert Strzodka; Jamaludin Mohd-Yusof; Patrick McCormick; Stefan Turek;
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正文语种 eng
中图分类计算技术、计算机技术;
关键词
Heterogeneous computing; Parallel scientific computing; CSM; Computational solid mechanics; GPUs; Graphic processor units; Co-processor integration; Multigrid solvers; Domain decomposition;

机译：异构计算;并行科学计算;CSM;计算固体力学;GPU;图形处理器单元;协处理器集成;多网格求解器;域分解;

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1. Co-processor acceleration of an unmodified parallel solid mechanics code with FEASTGPU [J] . Dominik Goddeke, Hilmar Wobker, Robert Strzodka, International Journal of Computational Science and Engineering . 2009,第4期

机译：使用FEASTGPU对未修改的并行实体力学代码进行协处理器加速
2. Domain-specific acceleration and auto-parallelization of legacy scientific code in FORTRAN 77 using source-to-source compilation [J] . Wim Vanderbauwhede, Gavin Davidson Computers & Fluids . 2018,第期

机译：使用源源到源编译，Fortran 77中的域特定加速度和自行并行化。
3. LCODE: A parallel quasistatic code for computationally heavy problems of plasma wakefield acceleration [J] . A.P. Sosedkin, K.V. Lotov Nuclear Instruments & Methods in Physics Research . 2016,第SEPa1期

机译：LCODE：并行准静态代码，用于解决等离子尾波加速的计算难题
4. GPU acceleration of an unmodified parallel finite element Navier-Stokes solver [C] . International Conference on High Performance Computing and Simulation . 2009

机译：GPU加速未修改并行有限元Navier-Stokes Solver
5. Diffusion2D OpenMP Parallel Computing and Intel Xeon Phi Co-Processor Support Development [D] . Athina, Monica. 2017

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6. Two-Axis Acceleration of Functional Connectivity Magnetic Resonance Imaging by Parallel Excitation of Phase-Tagged Slices and Half k-Space Acceleration [O] . Andrzej Jesmanowicz, Andrew S. Nencka, Shi-Jiang Li, -1

机译：通过相标记切片的平行激励和半k空间加速度来实现功能连接磁共振成像的两轴加速度
7. Co-processor acceleration of an unmodified parallel solid mechanics code with FEASTGPU [O] . Dominik Göddeke Hilmar Wobker, Robert Strzodka, Jamaludin Mohd-yusof, 2008

机译：使用FEasTGpU对未修改的并行固体力学代码进行协处理器加速
8. Development and application of massively parallel solid mechanics codes [R] . McGlaun, M. , Robinson, A. , Peery, J. 1995

机译：大规模并联固体力学规范的开发与应用

Co-processor acceleration of an unmodified parallel solid mechanics code with FEASTGPU

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